李宏阳,河北工业大学能源与环境工程学院讲师,硕士生导师,入选河北工业大学元光学者。主要从事高效相变储热技术研究,已发表SCI论文16篇,包括Cell子刊Matter一篇,第一作者10篇。担任Energy Conversion and Management、Energy Conversion and Management: X等本领域知名期刊审稿人。第十六届大学生节能减排大赛网评专家。
一、 个人简介
教育背景:
2019.09-2023.02,大连理工大学,能源与环境工程(硕博连读·博,导师:唐大伟)
2017.09-2019.06,大连理工大学,能源与环境工程(硕博连读·硕,导师:唐大伟)
2009.09-2013.06,南京航空航天大学,热能与动力工程(本科)
工作经历:
2013.07-2017.04,大连泰山热电有限公司,锅炉运行分厂(锅炉巡检)
2023.05-至今,河北工业大学,能源与环境工程学院,讲师
研究领域:
[1] 高效相变储热材料与技术研发;
[2] 新型多功能复合材料研发;
[3] 微纳尺度传热/传质特性研究。
联系方式:
邮箱:lihongyang@hebut.edu.cn
二、 主要科研成果
近年来主持或参与的科研项目
[1] 组合润湿性壁面协同强化高充液率环路热虹吸管传热及内在耦合机制研究,参与,2022.01—2025.12,58万元,国家自然科学基金(52176058)。
[2] 高充液率封闭回路内压力波产生机理及能量传递过程研究,参与,2019.01—2022.04,27万元,国家自然科学基金(51806028)。
发表论文
[1] Li Hongyang, Hu Chengzhi*, He Yichuan, Sun Zhehao, Yin Zongyou, Tang Dawei*, Emerging surface strategies for porous materials-based phase change composites. Matter, 2022,5:3225–3259. (中科院1区TOP, IF:18.9)
[2] Li Hongyang, Hu Chengzhi*, Jiang Yanhui, Zhu Jie, He Yichuan, Hu Xianfeng, Tang Dawei*, Flexible and Leakage-Proof Sodium Alginate-Based Phase Change Composite Film for Thermal-Comfortable Application of Electronic Devices. ACS Sustainable Chemistry & Engineering, 2023,11:10620–10630. (中科院1区TOP, IF:8.4)
[3] Li Hongyang, Hu Chengzhi*, He Yichuan, Tang Dawei*, Wang Kuiming, Hu Xianfeng, Visualized-experimental investigation on the energy storage performance of PCM infiltrated in the metal foam with varying pore densities. Energy, 2021,231:121540. (中科院1区TOP, IF:9)
[4] Li Hongyang, Hu Chengzhi*, Jiang Yanhui, He Yichuan, Tang Dawei*, Improved Body-centered Cubic Unit for Accurately Predicting the Melting Characteristics of Metal Foam Composite Phase Change Material. International Journal of Heat and Mass Transfer, 2023,201:123635. (中科院2区TOP, IF:5.2)
[5] Li Hongyang, Hu Chengzhi*, He Yichuan, Zhu Jie, Liu Hongsheng, Tang Dawei* A synergistic improvement in heat storage rate and capacity of nano-enhanced phase change materials. International Journal of Heat and Mass Transfer, 2022,198:122869. (中科院2区TOP, IF:5.2)
[6] Li Hongyang, Hu Chengzhi*, Wang Huihui, He Yichuan, Hu Xianfeng, Tang Dawei Thermal effect of nanoparticles on the metal foam composite phase change material: A pore-scale study. International Journal of Thermal Sciences, 2022,179:107709. (中科院2区, IF:5.2)
[7] Li Hongyang, Hu Chengzhi*, He Yichuan, Wang Kuiming, Tang Dawei*, Pore-scale study on Rayleigh-B´enard convection formed in the melting process of metal foam composite phase change material. International Journal of Thermal Sciences, 2022,177:107572. (中科院2区, IF:4.5)
[8] Li Hongyang, Hu Chengzhi*, He Yichuan, Tang Dawei*, Wang Kuiming, Hu Xianfeng, Influence of model inclination on the melting behavior of graded metal foam composite phase change material: A pore-scale study. Journal of Energy Storage, 2021,44:103537. (中科院2区, IF:9.4)
[9] Li Hongyang, Hu Chengzhi*, He Yichuan, Tang Dawei*, Wang Kuiming, Huang Wenguo, Effect of perforated fins on the heat-transfer performance of vertical shell-and-tube latent heat energy storage unit. Journal of Energy Storage, 2021,39:102647. (中科院2区, IF:9.4)
[10] Li Hongyang, Hu Chengzhi*, He Yichuan, Tang Dawei*, Wang Kuiming, Influence of fin parameters on the melting behavior in a horizontal shell-and-tube latent heat storage unit with longitudinal fins. Journal of Energy Storage, 2021,34:102230. (中科院2区, IF:9.4)
[11] Hu Chengzhi*, Li Hongyang, Tang Dawei*, Zhu Jie, Wang Kuiming, Hu Xianfeng, Bai Minli, Pore-scale investigation on the heat-storage characteristics of phase change material in graded copper foam. Applied Thermal Engineering journal, 2020,178:115609. (中科院2区TOP, IF:6.4)
[12] Hu Chengzhi*, Li Hongyang, Wang Ye, Hu Xianfeng, Tang Dawei*, Experimental and numerical investigations of lithium-ion battery thermal management using flat heat pipe and phase change material. Journal of Energy Storage, 2022,55:105743. (中科院2区, IF:9.4)
[13] He Yichuan, Hu Chengzhi*, Li Hongyang, Jiang Bo, Hu Xianfeng, Wang Kuiming, Tang Dawei*, A flexible image processing technique for measuring bubble parameters based on a neural network. Chemical Engineering Journal, 2022,249:132138. (中科院1区TOP, IF:15.1)
[14] He Yichuan, Hu Chengzhi*, Li Hongyang, Hu Xianfeng, Tang Dawei*, Visualized-experimental investigation on a mini-diameter loop thermosyphon with a wide range of filling ratios. International Communications in Heat and Mass Transfer, 2022,133:105973. (中科院2区, IF:7)
[15] He Yichuan, Hu Chengzhi*, Li Hongyang, Hu Xianfeng, Tang Dawei*, Reliable predictions of bubble departure frequency in subcooled flow boiling: A machine learning-based approach. International Journal of Heat and Mass Transfer, 2022,195:123217. (中科院2区TOP, IF:5.2)
[16] He Yichuan, Hu Chengzhi*, Li Hongyang, Hu Xianfeng, Tang Dawei*, Experimental investigation on air-cooling type loop thermosyphon thermal characteristic with serpentine tube heat exchanger. International Journal of Refrigeration, 2022,138:52–60. (中科院2区, IF:3.9)
[17] 李宏阳,胡成志,唐大伟. 梯度孔隙泡沫对不同PCM蓄热性能影响研究. 工程热物理学报,vol.41, No.8.